Intelligent Image Retrieval from Distorted and Partial Queries for Rapid Mobile Identification of Pests Threatening Food and the Environment. Pests and diseases are major threats to the Australian food industry and environmental biosecurity. A rapid and mobile pest information retrieval system is critical to prevent a pest becoming established and devastating the region. However, automated insect image retrieval remains an unsolved challenge in the research community. This project addresses the ....Intelligent Image Retrieval from Distorted and Partial Queries for Rapid Mobile Identification of Pests Threatening Food and the Environment. Pests and diseases are major threats to the Australian food industry and environmental biosecurity. A rapid and mobile pest information retrieval system is critical to prevent a pest becoming established and devastating the region. However, automated insect image retrieval remains an unsolved challenge in the research community. This project addresses the fundamental problem of distorted and partial image query in cluttered background in order to achieve pest identification at a much earlier on-site stage. The success of this research will not only make a technical breakthrough towards retrieving objects with movable body parts, but also revolutionise the current pest detection and monitoring process.Read moreRead less
New Directions in Silicon Solar Cell Technology. The fabrication of pure silicon is energy intensive, but solar cells can return 10 times more energy than is used to fabricate them. By investing in the development of silicon solar cells, Australia will develop a technology capable of encapsulating its vast coal resources within pure silicon. This has the potential to create an export market of clean energy and have an explosive effect on the growth of the local industry and skilled jobs.
Th ....New Directions in Silicon Solar Cell Technology. The fabrication of pure silicon is energy intensive, but solar cells can return 10 times more energy than is used to fabricate them. By investing in the development of silicon solar cells, Australia will develop a technology capable of encapsulating its vast coal resources within pure silicon. This has the potential to create an export market of clean energy and have an explosive effect on the growth of the local industry and skilled jobs.
This project will bolster the already prominent position of Australia in the field of photovoltaic solar energy by establishing collaborations with the top international organisations in the field. It will also coordinate efforts with all the main university research groups in the country. Read moreRead less
Photonic structures for high efficiency, low cost solar cells. Photovoltaics is a non-polluting, environmentally sustainable way of converting sunlight directly to electricity. The reduction of cost is the most important issue in photovoltaic solar energy conversion. This project will lead to the development of solar cell structures and techniques that have the potential to significantly reduce the cost of thin film solar cells, which are the major contender for the lowest cost photovoltaic te ....Photonic structures for high efficiency, low cost solar cells. Photovoltaics is a non-polluting, environmentally sustainable way of converting sunlight directly to electricity. The reduction of cost is the most important issue in photovoltaic solar energy conversion. This project will lead to the development of solar cell structures and techniques that have the potential to significantly reduce the cost of thin film solar cells, which are the major contender for the lowest cost photovoltaic technology. If the cost of photovoltaics was sufficiently reduced it could have a major impact on reducing greenhouse gas emissions and pollution in Australia.Read moreRead less
Lifetime spectroscopy of impurities in silicon solar cells. This project aims to apply recently developed experimental techniques to the important problem of characterising impurities in silicon, with a strong focus on solar cell applications. These new spectroscopic techniques, which are based on carrier lifetime measurements, are more sensitive and less ambiguous than most existing methods. The results will have important implications for solar cell technologies in two independent ways - first ....Lifetime spectroscopy of impurities in silicon solar cells. This project aims to apply recently developed experimental techniques to the important problem of characterising impurities in silicon, with a strong focus on solar cell applications. These new spectroscopic techniques, which are based on carrier lifetime measurements, are more sensitive and less ambiguous than most existing methods. The results will have important implications for solar cell technologies in two independent ways - firstly, by allowing accurate diagnosis of the performance-limiting impurities in standard silicon solar cells - and secondly, by identifying particular impurities which could boost cell performance beyond the conventional limit through the impurity photovoltaic effect.Read moreRead less
Fibre sensors with subwavelength features in the Terahertz radiation (T-ray) regime. With this program, Australia will benefit from expertise in photonics that will develop new chemical biosensors based on optical fibre technology. The novelty is that the fibres will be used to guide Terahertz radiation (T-ray) frequencies that will be able to detect very small samples of material or fluid. This is a fundamental step towards a system that will impact on applications in the medical, pharmaceutica ....Fibre sensors with subwavelength features in the Terahertz radiation (T-ray) regime. With this program, Australia will benefit from expertise in photonics that will develop new chemical biosensors based on optical fibre technology. The novelty is that the fibres will be used to guide Terahertz radiation (T-ray) frequencies that will be able to detect very small samples of material or fluid. This is a fundamental step towards a system that will impact on applications in the medical, pharmaceutical, forensic, and security industries. Ultimately, Australia will benefit from a new cutting-edge technology and a new diagnostic biosensing technique.Read moreRead less
Hot-swappable and High-efficient Grid-connected Power Electronics System For Photovoltaic Modules with Direct Power Transfer Technique. The project aims to increase the amount of available energy intake from photovoltaic panels, lengthen lifetime of power DC/AC inverter, reduce the amount of energy waste due to inefficient inverter by introducing new switching power converters with direct power transfer technique - bypassing part of the input power without repeatedly processing it, and using lon ....Hot-swappable and High-efficient Grid-connected Power Electronics System For Photovoltaic Modules with Direct Power Transfer Technique. The project aims to increase the amount of available energy intake from photovoltaic panels, lengthen lifetime of power DC/AC inverter, reduce the amount of energy waste due to inefficient inverter by introducing new switching power converters with direct power transfer technique - bypassing part of the input power without repeatedly processing it, and using long-life ceramic type capacitors. Development of this technology will mean reduced total cost, improved product lifetime and reduced global warming. It will lead to a reliable product that will help to put the Australian switching power converter industry into a leading position internationally in the design and manufacture of DC/AC inverters.Read moreRead less
Theoretical study and experimental verification of low cost, integrated and efficient AC/DC power supplies using time-multiplexing control. The project aims to reduce the amount of energy waste and cost due to inefficient AC/DC power supplies by introducing a novel power supply technique - combining conventional two-stage power circuits and using time-multiplexing control. Improvements in power supply efficiency and size will mean reduced total cost, improved product lifetime and reduced heating ....Theoretical study and experimental verification of low cost, integrated and efficient AC/DC power supplies using time-multiplexing control. The project aims to reduce the amount of energy waste and cost due to inefficient AC/DC power supplies by introducing a novel power supply technique - combining conventional two-stage power circuits and using time-multiplexing control. Improvements in power supply efficiency and size will mean reduced total cost, improved product lifetime and reduced heating up of the environment, leading to a reliable product that is particularly relevant to the Australian switching power supply industry. The development of this technology will help to put Australia into a leading position internationally in the design and manufacturing of AC/DC power supply.Read moreRead less
Towards a ten percent efficient organic solar cell. Organic photovoltaic (OPV) cells have the potential to reduce costs of electricity production significantly below those using traditional solar cells. Successful development of a 10% efficient organic solar cell of improved durability would not only increase the use of this environmentally sustainable energy source but also increase Australian manufacturing opportunities. Solar photovoltaics has been identified as one of the most desirable futu ....Towards a ten percent efficient organic solar cell. Organic photovoltaic (OPV) cells have the potential to reduce costs of electricity production significantly below those using traditional solar cells. Successful development of a 10% efficient organic solar cell of improved durability would not only increase the use of this environmentally sustainable energy source but also increase Australian manufacturing opportunities. Solar photovoltaics has been identified as one of the most desirable future energy options with the potential to displace fossil fuels and result in better utilisation of hydroelectricity resources. However, significant cost reduction as targeted by this project is required to exploit the full potential of this environmentally benign technology.Read moreRead less
Microelectronic Applications of Improved Silicon Light Emission. While semiconductor silicon chips have been the workhorse of the microelectronics revolution, more complex semiconductor materials have driven the communications revolution. Australian developments during 2001 have largely dispelled the myth that silicon is fundamentally a poor emitter of light. This project aims to build on this work by developing silicon light emitters suitable for integration into high density integrated circu ....Microelectronic Applications of Improved Silicon Light Emission. While semiconductor silicon chips have been the workhorse of the microelectronics revolution, more complex semiconductor materials have driven the communications revolution. Australian developments during 2001 have largely dispelled the myth that silicon is fundamentally a poor emitter of light. This project aims to build on this work by developing silicon light emitters suitable for integration into high density integrated circuits, adding a new dimension to the capabilities of these circuits, driving microelectronics and the information age to the next stage of development.Read moreRead less
ADVANCED PHYSICS AND CHARACTERISATION OF SILICON MATERIALS AND DEVICES. Silicon, the semiconductor material that has revolutionised modern society through Microelectronics, is also at the centre of Photovoltaics, the technology that permits harvesting the energy from the sun to improve the quality of life and sustain it beyond the limitations of fossil fuel resources. By improving our understanding of the fundamental properties of silicon and advancing the solar cell devices made from it, this p ....ADVANCED PHYSICS AND CHARACTERISATION OF SILICON MATERIALS AND DEVICES. Silicon, the semiconductor material that has revolutionised modern society through Microelectronics, is also at the centre of Photovoltaics, the technology that permits harvesting the energy from the sun to improve the quality of life and sustain it beyond the limitations of fossil fuel resources. By improving our understanding of the fundamental properties of silicon and advancing the solar cell devices made from it, this project aims to increase Australia's presence in the vast field of Microlectronics and maintain its leading position in solar energy technologies.Read moreRead less